Coin controlled vending apparatus



March 16, 1937. G. MCD, JOHNS 2,073,870

l COIN CONTROLLED VENDING APPARATUS March 16, 1937. G. MD. JOHNS 2,093,870

COIN CONTROLLED VENDING APPARATUS T TOP/VE I/ March 16, 1937. G MCD JOHNS 2,073,870

COIN CONTRLLED VENDING APPARATUS Filed Dec. 27, 1952 15 .sheets-sheet s March 16, 1937. G, M'CD JOHNS 2,073,870

COIN CONTROLLED VENDING APPARATUS Filed Dec. 27, 1952 15 sheets-sheet 4 /V TOP March 16, 1937. G. McDfJoHNs 2,073,870

COIN CONTRIOLLED VENDING APPARATUS Filed Dec. 27, 1932 15 sheets-sheet 5 March 16, 1937. Q MCD. JOHNS 2,073,870

COIN CONTROLLED VENDING A'PPARATUS Filed Dec. A27, 1932 l5 Sheets-Sheet 6 r l f77 M 455 440% @TMP/var G. MCD. JOHNS COIN C0N'1RfMl1LED YENDING APPARATUS March 16, 1937. 2,073,870

Filed Dec. 27, 1952 /A/VEN 70X? Geo/:ge Job/75 rOP/VEK March 16, 1937. G MCD. JQHNS v 2,073,870

COIN CONTROLLED VENDING APPARATUS Filed Dec. 27, 1932 15 Sheets-Sheet 8 a 19-i lvP20 mlm March 16, 1937. G. MCD; .JOHNS 2,973,370

CIN CONTROLLED VENDING APPARATUS Filed Deo. 27, 1932 15, Sheets-'Sheet 9 m/ cli/9321 ZZ, 220 f A 4 24a a a $226 ,I 4 am!!! ml m u .I -m'mlllllllllr U H f fTW/f G. MD'. JoHNs COIN CONTROLLED VENDING APPARATUS March v16, 1937.

l5 Sheets-Sheet l0 Filed Dec. 27, 1932 f rc" .March 16, 1937. G. MCD. JOHNS 2,073,870

` COIN CONTROLLED VENDIG APPARATUS Filed Dec. 27, 1932 A15 SheetS-Shee ll F 2.9 32 30 zg 415:75

.f7 l I l 307 k.5,77

la; Z .300 ./72' 257,

March 1.6, 1937. l 4 G, MCD JQHNSy 2,073,870

CO I N CON TROLLED VENDI N G; APPARATUS Filed Dec. 27, 1932 '15 shets-sheet 12 Geol-CQ@ /I/f. Job/7,5

wf, @@M- March 16, 1937.

COIN

G. MCD. JOHNS 2,073,870

CONTROLLED VENDING APPARATUS lFiled Deo. 27, 1952 15 Sheets-Sheet 13 krop/wry March 16, 1937. G. MCD. JOHNS A COIN CONTROLLED VENDING APPARATUS l5 Sheets-Sheet 14 Filed Dec. 27, 1932 March 16, 1937. G MCD JQHNS 2,073,870

COIN CONTROLLED VENDING APPARTUS Filed Dec. v2*?, 1952 15 sheets-sheet 415 Geo/jg@ /1/-2 Job/75.

yPatented `Mar. l16, 1937v G01N ooN'raoLLEn vENnING APPARATUS George MoD.

Johns,ltobyn and Denny Roads, near Sappington, Mo.

Application neeember 27, 1932', sei-mino. 645,921

' ss claims. (el. 194-10) This invention relates generally to automatic vending machinesand has more particular reference to certainl new and useful improvements in vending apparatus of coin-controlled type. 5 My invention has for an object the provision of an automatic vending apparatus or machine .comprising a plurality of dispensing sections for vending an assortment of severally priced articles underl control of a coin-selecting mechal nismcommon to all of the dispensing sections.-

My invention has for another object the provision of an automatic vending apparatus comprising a coin selecting mechanism, a` dispensing mechanism, and an-accounting mechanism. addi- Vi' tively operablefor accumulating items responsively to acceptance ',of coins by the selectingmechanism and subtractively operable for deducting items responsivelyto actuation of the dispensing mechanism. '20 lMy invention has for another object the provision of a. coin-controlled vending apparatus in which acoin-selecting mechanism actuates -an accounting mechanism foi` controlling a dispensing mechani m in such `manner that a predetermined qua tity of items must be 'accumulated by the' accounting mechanism before the dispensing mechanism may be actuated for `venciing purposes.

And withthe above and other objects in view,v 3,0,my invention resides in the novel features of form, construction, arrangement, and combina-- tion of parts hereinafter described and pointed out in the claims.

InJthe accompanying drawings (15 sheets);-

y Figure 1 is a side elevational view, partly in section, of the coin responsive-control section of the machine of my invention, thefront closures being shown and the housing walls removed; I v Figure 2 is a front elevational' view of the mal.c h'ine parts illustrated in Figure l, the vendingdrive shaft being fragmentally shown and'the front-closures removed; Figure 3 is a side elevational view, partly in section, of one 'of thefmerchandise-vending sections of the machine, the front closures being shown and the housing-walls removed;

" yFigure 4 is a front elevational view of the machine parts illustrated in Figure 3, the vendingdrive shaft lbeing fragmentally shown and the front-closures removed;

Figure/.W5 is an enlarged front view, partly broken/away and in section, ofthe coin-selecting mechani ,together with fragmentary portions ofwthej control-section frame, the view being taken' approximately along the line 5--5, Figure 6,

Figure 6 is a side view, partly broken away and in section, of the coin-selecting mechanism. together with a fragmentary portion ofthe front closure of the control-section, the view being taken approximately along the line 6 6, Fig- 5 ure 5;

Figure '7 is a fragmentary vertical sectional view taken approximately along the line 1 1.' Figure 5, showing the coin-selectingl mechanism in normal or coin-rejecting position. 10

Figure 8 is afragmentary sectional view taken approximately along theV line 8 8, Figure A5, showing the mechanism in the operation of weighing a coin, the parts co-operating for such Apurpose being shown and other parts removedfl one of the slide-operating vibratory levers, however, being shown by dot-dash lines:l

Figure 9 1s e diagram of the eieetrieereieuiuof the coin-selecting mechanismfduring the coinselecting operation thereof, as existing 'on accept- 20 ance of a coin;

1 Figure 10 is a view similar to Figure 9, as existing on rejectionV of a coin;v Figure 11 is a view of the electrical-circuit of the coin-selecting mechanism during the coin- `25 distributing operation as existing on acceptance of a coin; i

Figure 'l2 is a view .similar to Figure 11,' as existing on rejection of a coin;

Figure 13 isa view of the electrical circuit of 30 the coin-selecting mechanism as existing in normal or coin-depositing condition thereof, a deposited coin being shown in dot-dash lines for illustrating the manner in which a depositedcoin effects closure of a circuit resulting in initiation 35 `of motor actuation of the mechanism;

Figure 14 is a fragmentary rear view of the merchandising discharging mechanism for vending section, together with portions ofv the conlvefyer apparatus, the View being taken approxi- 40 mately along the line |4^-`I4, Figure 3;

'Figure 15 is a fragmentary detail sectional view taken approximately -along the line Iii-I5, Figure 14 showing the discharging-actuating mechanism in feeding position, successive positions of the feeder and cam being indicated by dotdash lines;

Figure 16is an enlarged detail view, partly broken away and in section, of the clutch for the 50 coin-selecting-mechanism, parts co-operating therewith'being fragmentally shown and other .parts removed;

Figure 1'7 isa reap detail view, partly. broken away and in section, of the clutch switch plate, 55

2 aovasvo the view being' taken approximately along the line II-I'I, Figure 16;

Figure 18 is a top plan view of the motor-control switch, merely a fragmentary portion of the '5 clutch-switch plate being sectionally shown, the view being taken approximatelyalong the line |8-I8, Figure 16; Figure 19 is a rear view, partly in section, of the clutch-mechanism, taken approximately 10 along the line IS-IS, Figure 16;

Figure 20 is a half-front sectional view of the clutch-barrel, taken approximately along' the line 29-20; Figure 16;

Figure 21 is an enlarged front elevational view of the accounting mechanism of the control section, the indicator-dial being removed, and the parts shown as at the completion of one orgthe initial accumulative Aactuation thereof;

Figure 22 is a transverse sectional view taken approximately along the line 22-22, Figure 21,

the indicator-dial being shown in section;

Figure 23 is a sectional view taken approximately along the line 23e-23, Figure 22, illustrata ing the vending control-switch of the accounting 25 mechanism;

Figure 24 is a reduced top-plan view of the accounting mechanism, the accumulator-shaft counting section of 4Figure 1 and a plurality of merchandise-vending sections, similar to that of Figure 3, assembledin unitary row relation; -Figure 28 is an enlarged front view; partly 45 broken away and in section, of the clutch for the vending section, parts co-operating therewith being fragrnentally shown and other paris removed;

, .Y .Figure 29 is an elevational view of jthe price- 50 selector switch of the vending section, taken approximately along the line 28-29, Figure 28;

Figure 30` is an elevational view of the subtractor-switch of the vending-section, taken approximately along the line 30-3IL Figure 28;'

55 Figure 31 is atransverse sectional view of the price-selector and subtractor switches, taken approximately along the line 3I-3I, Figure 29;

Figure 32 is a view of the subtractor-switch rotor and its switch-plate, taken approximately 60 along the une :iz- 32, Figure 2s;

Figure 33 is an end sectional view of the vending-section clutch, taken approximately along the line 33 33, Figure 28;

Figure 34 is a sectional view of the vending 65 section motor-control switches, taken approximately along the line :I4- 34, Figure 28,- merely a fragmentary portion of the clutch switch-plate being shown;

Figure 35 is a sectional view of the vending 70 section clutch, taken approximately alonghe-c line 35-35; Figure 28;

Figure 36 is a half sectional yi'ew of the vending section clutch, taken approximately along the line 36-36, Figure 28;

' 75 Figure 37 is a half sectional view of the vending section clutch, also taken approximately along the line 36-36, Figure 28, but looking in the opposite direction from Figure 36;

Figure 38 is a fragmentary detail view of a portion of the clutch throw-out apparatus, showing 6 the throw-out armature cam and the clutch' barrel lug co-operating therewith, the position of the clutch-barrel prior to engagement of the lug with the cam being shown by dot-dashlines;

Figure 39 is a fragmentary sectional view taken 10 approximately along the line 39-39, Figure 38;

Figure 40 is a fragmentary sectional view, partly broken away and in section, of' one of the change-making mechanisms -and the conveyerempty switch, fragmentary portions of the con- 15 veyer mechanism co-operating therewith being shown and other parts of the machine removed;

Figure 41 is a front view, partly broken away and in section, of the change making mechanisms of Figure 40, a fragmentary portion of the 20 conveyer being shown and other parts of the mechanism removed:

Figure 42 is a top plan view of the machine parts shown in Figure 41;

Figure 43 is an-elongated sectional plan view 25 taken approximately along the line M Figure 40;

Figure 44 is a fragmentary plan sectional view of the coin-pusher slide, taken approximately along the une u u, Figure 41; 30

Figure 45 is a fragmentary vertical sectional view through thecoin-discharge end of a. changemaking chute as appearing during discharge of a coin, taken approximately along the line 45- 4s, Figure 41; A 35 Figure 46 is a diagram of the electrical circuit of the automatic vending apparatus of Figure 27, an intermediate vending section being removed:

Figure 47 is a sectional view of the coin-feed- 40 ing slide and weighing frame taken approxb) matelyg along the line "-41, Figure 6;

Figure 48 is a fragmentary view taken approximately along the line "-48, Figure 7; and

Figure 49 is a developed plan view of the sur- 45 face of the coin-distributor-cam drum.

Referring now more in detail and by reference characters to the drawings, which illustrate a preferredembodiment of my invention, A desig- .nates the control-section or coin-selecting and 50 accounting unit of the apparatus, the main frame of which includes an approximately rectangular'base I supporting upstanding pairs ofv transversely spaced front and rear corner posts 2, 3, respectively, united at their 'upper end by 55 a top-frame 4. The posts 2 are set back from the front margin of the base I and at a suitable elevation thereabove carry a pair oi.' forwardly projecting brackets 5 suitably connected by front and rear transverse or cross-bars 6, 1, respectively.

8 designates an upwardly swingable door or lid including a frame 9 hinged, as at III, to the rear cross-bar 1. Also hinged, as at II, to the front margin of the \base I, is a downwardly swingable closure-panel or door I2. At its free 'margin, the door I2 carries a lip I3 fortting between the free margin of the door 8 and a ledge I4 projecting from the door frame 9, and the `doorI-r further carries a lock I5 having an 70 extension bolt engageabie with a suitable aperture provided in the ledge Il for locking the doors 8, I2, mutually, as may be said, together whenl in their respective closed positions, as best seen in Figure 1.

The s ace between the posts 2 above the lid 8 is closab e by a door I6 hinged, as at l1, to one of the posts 2 and having a lock I8 for c-operation with the other post2, suitable side and head casing-strips I9, 26, respectively, surround- 4 ing the door I6, asbest seen in Figure 27.

TIhe coin-selecting apparatus B includes a framesupported on brackets 2| rearwardly projecting from the front postsl 2 and comprising a horizontal platform or shelf 22 having front and rear pairs of depending legs 23, 24, respectively,

supported on the brackets 2|, and, upstanding.

from the shelf 22, is a pair of spaced side vframes 25 connected at their upper rear corners by a4 suitable cross-bar 26, as bestseen in Figures 5 and 6.

Each frame 25 includes a preferably integrally formed horizontal channel-shaped slide-rail 21,

the pair of slide rails 21 projecting forwardly through the door |6 into a pocket or casing 28 mounted on the door |6. The-casing 28 suitably encloses a coin-depository 29 of a -generally pyramidal shape, the base of the depository29 being mounted onand between the slide-rails 21 for projecting its apex suitably through the up'- per wall of the casingl 28.

The depository 29 is provided with a down- 4 wardly and inwardly sloping coin-chute 3|) -opening through the apex of the depository, most accessibly for customers convenience. Suitable legends are provided, as at 3|, -on the door |6 and, as at 3|', on the front wall ofA the casing 28, for directing the customers attention to the istration, whenthe feede-'body 33 is in forward mouth of the chute 3|) for`coin depositing.

The coin selecting apparatus B is Agenerally similar to that described in my copending application `for Letters Patent for coin-selectors, filed January 19,193.1, vSerial No. 509,581, to which reference is made.-

Briey, the coin-selecting apparatus B includes a coin-feeding mechanism comprising a pair of spaced slide-bars 32 reciprocable in suitably complementary ways provided in the respectiveslide-rails 21. Supported by and between thebars 32, is a feeder-body 33 of insulation material, supporting a coin-feeder plate 34 provided with a semi-circular notch'35 disposed for regor retractedposition under the depositoryv 29, with the lower or discharge end of the chute 36. as best seen in Figures 7- and 47.

The body 33 is provided with a transversely spaced pair of longitudinal bores 36, -in which are slidably mounted respective plungers 31 of electrically conducting' material, which project I rearwardly from the respective bores 36 and at their rearward end are connected by Va transverse bar-38 also of .insulation'material and having its top-face flush with the top of the plungers The plungers 31 are each equipped with a' .hooked-rod31' forwardly extending in the bore 36 for engaging the front face of the block 33 for retaining the plungerstherein. Normally the plungers 31 are substantially extended from the feeder body 33 in registration also with the discharge end of the chute 36, the depository 28 carrying apair of spring fingers 39, projecting over the plungers- 31., for releasably retaining a chute-discharged coin thereupon,.as will 'be understood from Figure 7.

The plungers 31 comprise a part of a normally open electrical circuit adapted for closure by a coin spanning' saidvplungers, which latter are 1,5,

normallyincluded`in such circuit by a pair of resilient contact-fingers 40 depending from the plungers 31 for co-operative engagement with respective framesupported circuit-contacts 4I. 42. The fingers 46 are disengaged from the contacts 4|, 42, however, on rearward movement of the plungers 31, as presently appearing.

'I'he bar 38 carries a pair of rearwardly projecti ing hooked stop-rods 43 working in and through a stop-,bar 44 mounted on posts 45 upstanding from a cross-member 46, in turn, mounted' on and between the side frames 25.` .At their hooked ends, the rods 43 are adapted for impinging the bar 44 for withdrawing the plungers-STV from the body 33 when the `mechanism -B is in its normal or coin-depositing position, as best seen in Figure 7.

Each of the slide-bars 32 carries a laterally` projectingv stub-shaft 41 -having a reduced end extending through the side-bar 32 for threaded engagement with a combined nut and stop-block 48 mounted on the inside face of the bar- 32, the

shafts 41 being reciprocable inlon'gitudiual slots 49 provided through the respectivev rails 21, as best seen inv Figure 47. I'

A shaft 56, rockablyv supported'in bearings 5| depending from the shelf 22, suitably supports for unison actuation a pair of vibratory levers 52 disposed in transverse registration for respective swingable actuation adjacent the outer face of a particular frame 25, each lever 52 at its free end being provided' with a lug 53 and an opposing spring-clip 54 spaced from the lug 53 for receivas best seen A pair o f pull-back. members or slides 58,1ongl-A tudinally slotted, as at 59, for receiving the respective shafts 41, are reciprocably `mounted inguides 60 carried by the respective frames 25, the pull-backs 58 being provided with stops 6| for impinging the guides 60 for limiting the forward movement of the pull-backs 58. Suitable tensional members in the form preferably of springs ,62 are engaged between the pull-backs 58 and the framesA 25 for normally biasing the pull-backs. 58 in such forwardly shifted position, v

as best seen in Figures 6 and 47.

. The co-operation of the wrist-pins 56 with the cams 55 effects a positive actuation of the slide-' bars 32 to. extreme rear position, the shafts 4-1 meanwhile impinglng the end-walls of the. slots 59 for shifting the pull-backs 58 rearwardly against the tension of the springs 62. 'The wristpins 56 then release the cams 55,- whereupon the tensed springs 62 draw the slide-bars 32 lforwardly until the cams 55 again engage the wrist-pins 56, which then work over concen ric or dwell portions of the cams 55 vfor holding he slide bars 32 in ls uch spring retracted position for a particular period of the reciprocatory cycle hereinafter referred to as the coin-weighing pause of the slide-bars 32. Thereafter, the wrist-pins 56 act to return the slide-bars 82 to initial position.

The discs 51 are mounted on and rotate with a main or drive-shaft 63 suitably rotarily supported transversely .in and between the side-v 'frames 25. 'I'he shaft 63 carries a worm-gear 84 meshing with a worm 65 on a shaft 66 rotarily supported inl and between the frame-cross-mem nal alignment with the plungers 31 between theslide-bars 32 with the front end of the frame `10 -l swingably disposed rearwardly adjacent the stopplate 44.

The frame is provided with a pair of vtransversely aligned fulcrum orvstub-shafts 1| each provided at its`end with fulcrlmi-edge 12 cooperable with a fulcrum-seat 13 provided in the lower wall of a suitably apertured or hollow bushing 14 mounted in and through-the adjacent frame 25, as shown in Figures 6 and 47.

'I'he slide bars, 32 are provided with horizontally registering longitudinal slots 15 for receiving the respective fulcrums 1|, the lower wall of the respective slots 15 having sliding engage'- ment with the fulcrum 1| for normally lifting the fulcrum-edges 12 from their seats 13. At its 80 lower wall, however, each slot 15 has suitable notches or recesses 16 for registration with the fulcrums 1| during the described coin-weighing pause of the slide-bars 32 for releasing the fulcrums 1| for dropping the fulcrum-edges 12 onto 36 vtheir fulcrum-seats 13as best seen in Figure 8. 'I'he frame 10 is provided with a longitudinal slot 11, in which works a block 18 for suitably 4guiding a reciprocable coin positioning member 'or plate 19 slidable on the upper face of the frame 40 10 and having in its `forward margin a semi-circular notch 88 disposed opposite to, and 'for coinholding co-operation with, 'the notch 36in the feeding-plate 34, as best'seen in Figure 47.

The plate 19 is provided with lateral ears 8| for impinging the stops 48 on the slide-bars 32 for shifting the plate 19 forwardly on the frame 18, each of said ears 8| carrying a pair of flaring upper and lower fingers 82 for receiving the advancing rear margins of the plate 34 for guiding the same into horizontal registration with the plate 19, as seen in Figure '1.

Upstanding from the frame 10, is a pair .of

transversely spaced standards 83, the plate 19 having a reduced portion extending between the standards 83 and providing lateral shoulders 84 engageable therewith on rearward movement of the plate 19 on the frame 18 /for precisely positioning a frame-deposited coin a predetermined distance from the pivotal axis of the frame 10, suitably for weighing the coin, as will shortly appear, and best understood from Figure 47.

I'he balance-frame 10 Jalso supports a so-called minimum coin-thickness gauging lever 85 mounted -for oscillation on a vlower transverse shaft 86 supported in and between the standards. 83,

the lever 85- carrying at its forward end a coinface exploring point or shoe 81'normally biased for coin-gauging purposes by means of a spring or resilient member 88 disposed between the rear end of the Vlever 85 and the upper face ofthe frame 10. I

Adjustably threaded insulatably in, and depending from, the rear end of the lever 85, is a contactscrew 89 adapted for .co-operative engagement with a U-shaped resilient or springcontact 90 supported by and on a terminal stud 9|, in turn, mounted insulatably in a suitable lug projecting from the rear end of the frame 10, as best seen in Figure '7.

The balance-frame 10 further supports a pair of transversely spaced so-called maximum cointhickness gauging levers 92 mounted for oscillation on an upper shaft 93 supported also in and between the standards 83. Each ofthe levers 92 carries at its forward end a.' coin-face exploring mounted in, and depending from, an upstanding inverted U-shaped frame 98 mounted suitably for the purpose on the rear end of the frame 10.

A forwardly extending conducting tongue or arm v99 is insulatably mounted on the frame 98 for electrical connection with the contacts 91, and a flexible conductor |00 is connected between the projecting end of the arm 99 and a conducting bracket |0| supported insulatably on the frame cross-member 26 for electrical connection with a terminal |02 carried thereby, as best seen in Figure 6.

In normal or non-gauging position, the exploring points 81 and 94 yieldingly repose upon a lift-plate |03 mounted on the positioning-plate 19, the lift-plate |03 having suitable point-receptive grooves or channels |04 leading to the coin-notch in the plate 19, as best seen in Figure 4'1.

Also mounted on the forward end of the frame 10, is a coin-seat |05 for registration'with the notch 80, on retraction of the plate 19, for supporting a notch-carried coin on the frame 18, the channels |04 meanwhile'guiding the points 01, 94, vupon the coin in the notch 89 for firmly pressing the coin upon the seat |05.

vOn such engagement with a coin depositedon v the coin-seat |05, the lever measures with its exploring point 81 the heighth or total thickness of the'approximately central or embossed portion ofthe coin above the seat |05 as a datum. Ii.' the coin is of more than predetermined minimum thickness at its approximate center, the coin will pass the test-and the contacts 89, 90, will become engaged; however, the coin fails in such test it the lever 85 remains 'depressed for circuit-interrupting disengagement of the contacts 89, 90.

In like manner, the levers 92 each independently measure with their exploring points 94 the highth or total thickness of the lowest point of the. lateral side or marginal portions of the coin above the seat |05. If the coin is of less than predetermined maximum thickness, the coin will pass the test and the contacts 96, 91, of either or both 0f the levers 92 will remain engaged, however, again, the coin fails in such test if, and

, when both of the levers 92 are liftingly actuated for circuit-interrupting disengagement of the corresponding contacts 96, 91. Y

A weight |06 is slidably supported on and beneath the frame 10, and a suitably elongated screw |01 is rotarily mounted in the frame 10 for threadedly engaging the Weight |06 for adjusting the same relatively to the pivotal axis of `the-frame 10 for counter-pulsing the frame for coin-weighing purposes.

,The frame '.10 also carries at its rear end a pivotally suspended 'link |08 depending into a vessel |09 supported on the shelf 22, the vessel |09 containing a fluid ||0 of suitable viscosity, and the link |08 carrying a dasher or plate ||I working in the uid I0 for dampening the'oscillations of the frame 10,as best seen in Figure 8. An arm ||-2, depending from one of the fullcrum-shafts 1| carries at its lower end ahorizontally disposed elongated flexible weighing contact-member I3 of conducting material, suitably insulated from the arm I2 and having electrical. connection with the balance-frame ,con.

tact 9| by means of a conductor ||4,I as best seen in Figures '7 and 18. Y Upstanding from the shelf 22 in the rear of the side-frames 25, is an insulation-block ||5 suppdrting a forwardly projecting conducting bracket, in turn, vsupporting a stationary ground contact-point f||6 disposed or spacedY below the normal path 'of movementof the con- A tact ||3 occurring on swinging actuation of the arm ||2 responsive tocoin-weighing oscillation of the frame 10.

A lever ||1, mounted ona shaft ||8supported in suitable bearings upstanding from the shelf 22, extends rearwardly below the mainshaft 63 and carries at its free end an adjustable actuatorscrew ||9, the lever ||1 being normally upwardly biased by a spring |20 engaged betweenthe lever ||1 and the shelf 22. Fixed on the shaft 63,is a plate-cam |2| hav'- ing a cam-tooth |22 engageable with the lever I|1 during the coin-weighing oscillatory period 'of the frame 10 for causing-the actuator-screw ||9 to intersect the arcuate path of the swingable contact ||3 and engage the same for depressing the contact |.I3 into engagement'with the stationary contact ||6, provided, however, that the contact ||3 is in a particular position in its path corresponding to acceptable coin-weight oscillated position of the frame 10, as shown in Figure 8; otherwise the actuator screw I9 will ,fall to one or the other side of the contact ||3 Aand the circuit connected thereto will remain interrupted, as will be understood from Figure '1.

The coin distributing mechanism of the maunable veuve izimounteipaa shaft las rotaruy supported in and through thffside walls of the -head |25. n., l Opening through thefront wall of "the ,head |25, is a reject chutel29, and disposed suitably |29, is a 'downwardly `and .forwardly inclined chute |30 mounted in and through the door |6 for termination in a tray |3| projecting forwardly therefrom immediately above the door or lid 8, as best seen in Figures 6 and :7.

chine includes a preferably cylindrical operi-- bottom wall of thhppper being formed by al be1ow the head 1125 in registration with the chutel is a storage-hopper |32- whose bottom wall is formed by an oscillatory valve |33 mounted on a. shaft |34 rotarily' supported in and through the side walls of the head |25. Disposed below the head |25, is a coin-drawer |35 slidably mountved between the bracket members 5, whiqh have suitable rearward prolongations |36 for such ldrawer-supporting purposes, all as best seen in l for temporarily supporting a coin received fram the chute |23, as best seen in Figure '5. Ho ever, for eecting distribution of a coin frl m the hopper |26, the valve |21 is actuable in/ al- 1 ably on the adjacent frame-member 25. On its rear face, the lever |40 carries a vertical pintle |42, on which is hingedly supported a C-,shaped cam-follower |43 having a rearwardly extending pair of spaced upper and lower jaws |44, |45, re-

' spectively, as best seen in Figure '1.

e jaws |44, |45, are disposed for embracing a )cam-drum |48 mounted on the shaft 63, the'. cam-drum |46 comprising a pair of axially spaced ,cam-tracks descriptively referred to as an outer or reject cam |41 and an inner or accept cam |48 with la, short cylindrical or neutral section of the drum |46 therebetween, as will `best be understood from Figure' 49. v

Provided -in the head |25 below the hopperI |26,

f The cams |41, |48, are of the constant diame ter type; thus, the reject-,cam 41, which has a. tooth |49 for engaging the jaw |45, is provided with a diametrically opposite notch |50 for receiving the jaw |44, and the accept cam |48, which has a tooth |5| for vengaging the jaw |44, is provided with a diametrically opposite notch |52 for receiving lthe jaw |45. 'Ihe teeth |49, |5|, are on diametrically opposite sides of the drum |46, that is to say, the cams |41, |48, are apart, as best seen in Figure 7. J

'I'he accept-cam |48 is further provided with a return cam-tooth |53, which, following the tooth |5|, acts on the jaw |44 for throwing the vfollower |43 from. the cam |48 onto the neutral portion of the drum |46, and, in turn, a reject shifter-cam tooth |54, mounted on the neutral portion of the drum |46 in advance of the tooth |5|, normally acts on the jaw |44 for, in turn, throwing lthe follower |43 from the neutral drum-portion onto the,reject-cam |41, as best seen in Figure 49.v g

Thus,.under normal or rejected condition of the mechanism, the tooth |49 engages the jaw |45 for depressing the follower |43 for swinging the lever |40 forwardly about its pivot |4l, thus tilting the valve |21 for discharging'into the reject-chute |30 any coin contained at that time in the hopper |26, such coin, as will be understood, having been rejected by the gauging mechanisms of the machine due either or both to improper weight and dimensions.

However, on acceptance of a coin by the gauging mechanisms of the machine, a magnet |55, 

